1*f7184619SJoshua M. Clulow /*
2*f7184619SJoshua M. Clulow * CDDL HEADER START
3*f7184619SJoshua M. Clulow *
4*f7184619SJoshua M. Clulow * The contents of this file are subject to the terms of the
5*f7184619SJoshua M. Clulow * Common Development and Distribution License (the "License").
6*f7184619SJoshua M. Clulow * You may not use this file except in compliance with the License.
7*f7184619SJoshua M. Clulow *
8*f7184619SJoshua M. Clulow * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9*f7184619SJoshua M. Clulow * or http://www.opensolaris.org/os/licensing.
10*f7184619SJoshua M. Clulow * See the License for the specific language governing permissions
11*f7184619SJoshua M. Clulow * and limitations under the License.
12*f7184619SJoshua M. Clulow *
13*f7184619SJoshua M. Clulow * When distributing Covered Code, include this CDDL HEADER in each
14*f7184619SJoshua M. Clulow * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15*f7184619SJoshua M. Clulow * If applicable, add the following below this CDDL HEADER, with the
16*f7184619SJoshua M. Clulow * fields enclosed by brackets "[]" replaced with your own identifying
17*f7184619SJoshua M. Clulow * information: Portions Copyright [yyyy] [name of copyright owner]
18*f7184619SJoshua M. Clulow *
19*f7184619SJoshua M. Clulow * CDDL HEADER END
20*f7184619SJoshua M. Clulow */
21*f7184619SJoshua M. Clulow
22*f7184619SJoshua M. Clulow /*
23*f7184619SJoshua M. Clulow * Copyright 2007 Sun Microsystems, Inc. All rights reserved.
24*f7184619SJoshua M. Clulow * Use is subject to license terms.
25*f7184619SJoshua M. Clulow */
26*f7184619SJoshua M. Clulow
27*f7184619SJoshua M. Clulow /*
28*f7184619SJoshua M. Clulow * Copyright 2007 Jason King. All rights reserved.
29*f7184619SJoshua M. Clulow * Use is subject to license terms.
30*f7184619SJoshua M. Clulow * Copyright 2012 Joshua M. Clulow <josh@sysmgr.org>
31*f7184619SJoshua M. Clulow */
32*f7184619SJoshua M. Clulow
33*f7184619SJoshua M. Clulow /*
34*f7184619SJoshua M. Clulow * The sparc disassembler is mostly straightforward, each instruction is
35*f7184619SJoshua M. Clulow * represented by an inst_t structure. The inst_t definitions are organized
36*f7184619SJoshua M. Clulow * into tables. The tables are correspond to the opcode maps documented in the
37*f7184619SJoshua M. Clulow * various sparc architecture manuals. Each table defines the bit range of the
38*f7184619SJoshua M. Clulow * instruction whose value act as an index into the array of instructions. A
39*f7184619SJoshua M. Clulow * table can also refer to another table if needed. Each table also contains
40*f7184619SJoshua M. Clulow * a function pointer of type format_fcn that knows how to output the
41*f7184619SJoshua M. Clulow * instructions in the table, as well as handle any synthetic instructions
42*f7184619SJoshua M. Clulow *
43*f7184619SJoshua M. Clulow * Unfortunately, the changes from sparcv8 -> sparcv9 not only include new
44*f7184619SJoshua M. Clulow * instructions, they sometimes renamed or just reused the same instruction to
45*f7184619SJoshua M. Clulow * do different operations (i.e. the sparcv8 coprocessor instructions). To
46*f7184619SJoshua M. Clulow * accommodate this, each table can define an overlay table. The overlay table
47*f7184619SJoshua M. Clulow * is a list of (table index, architecture, new instruction definition) values.
48*f7184619SJoshua M. Clulow *
49*f7184619SJoshua M. Clulow *
50*f7184619SJoshua M. Clulow * Traversal starts with the first table,
51*f7184619SJoshua M. Clulow * get index value from the instruction
52*f7184619SJoshua M. Clulow * if an relevant overlay entry exists for this index,
53*f7184619SJoshua M. Clulow * grab the overlay definition
54*f7184619SJoshua M. Clulow * else
55*f7184619SJoshua M. Clulow * grab the definition from the array (corresponding to the index value)
56*f7184619SJoshua M. Clulow *
57*f7184619SJoshua M. Clulow * If the entry is an instruction,
58*f7184619SJoshua M. Clulow * call print function of instruction.
59*f7184619SJoshua M. Clulow * If the entry is a pointer to another table
60*f7184619SJoshua M. Clulow * traverse the table
61*f7184619SJoshua M. Clulow * If not valid,
62*f7184619SJoshua M. Clulow * return an error
63*f7184619SJoshua M. Clulow *
64*f7184619SJoshua M. Clulow *
65*f7184619SJoshua M. Clulow * To keep dis happy, for sparc, instead of actually returning an error, if
66*f7184619SJoshua M. Clulow * the instruction cannot be disassembled, we instead merely place the value
67*f7184619SJoshua M. Clulow * of the instruction into the output buffer.
68*f7184619SJoshua M. Clulow *
69*f7184619SJoshua M. Clulow * Adding new instructions:
70*f7184619SJoshua M. Clulow *
71*f7184619SJoshua M. Clulow * With the above information, it hopefully makes it clear how to add support
72*f7184619SJoshua M. Clulow * for decoding new instructions. Presumably, with new instructions will come
73*f7184619SJoshua M. Clulow * a new dissassembly mode (I.e. DIS_SPARC_V8, DIS_SPARC_V9, etc.).
74*f7184619SJoshua M. Clulow *
75*f7184619SJoshua M. Clulow * If the dissassembled format does not correspond to one of the existing
76*f7184619SJoshua M. Clulow * formats, a new formatter will have to be written. The 'flags' value of
77*f7184619SJoshua M. Clulow * inst_t is intended to instruct the corresponding formatter about how to
78*f7184619SJoshua M. Clulow * output the instruction.
79*f7184619SJoshua M. Clulow *
80*f7184619SJoshua M. Clulow * If the corresponding entry in the correct table is currently unoccupied,
81*f7184619SJoshua M. Clulow * simply replace the INVALID entry with the correct definition. The INST and
82*f7184619SJoshua M. Clulow * TABLE macros are suggested to be used for this. If there is already an
83*f7184619SJoshua M. Clulow * instruction defined, then the entry must be placed in an overlay table. If
84*f7184619SJoshua M. Clulow * no overlay table exists for the instruction table, one will need to be
85*f7184619SJoshua M. Clulow * created.
86*f7184619SJoshua M. Clulow */
87*f7184619SJoshua M. Clulow
88*f7184619SJoshua M. Clulow #include <libdisasm.h>
89*f7184619SJoshua M. Clulow #include <stdlib.h>
90*f7184619SJoshua M. Clulow #include <stdio.h>
91*f7184619SJoshua M. Clulow #include <sys/types.h>
92*f7184619SJoshua M. Clulow #include <sys/byteorder.h>
93*f7184619SJoshua M. Clulow #include <string.h>
94*f7184619SJoshua M. Clulow
95*f7184619SJoshua M. Clulow #include "libdisasm_impl.h"
96*f7184619SJoshua M. Clulow #include "dis_sparc.h"
97*f7184619SJoshua M. Clulow
98*f7184619SJoshua M. Clulow static const inst_t *dis_get_overlay(dis_handle_t *, const table_t *,
99*f7184619SJoshua M. Clulow uint32_t);
100*f7184619SJoshua M. Clulow static uint32_t dis_get_bits(uint32_t, int, int);
101*f7184619SJoshua M. Clulow
102*f7184619SJoshua M. Clulow #if !defined(DIS_STANDALONE)
103*f7184619SJoshua M. Clulow static void do_binary(uint32_t);
104*f7184619SJoshua M. Clulow #endif /* DIS_STANDALONE */
105*f7184619SJoshua M. Clulow
106*f7184619SJoshua M. Clulow static void
dis_sparc_handle_detach(dis_handle_t * dhp)107*f7184619SJoshua M. Clulow dis_sparc_handle_detach(dis_handle_t *dhp)
108*f7184619SJoshua M. Clulow {
109*f7184619SJoshua M. Clulow dis_free(dhp->dh_arch_private, sizeof (dis_handle_sparc_t));
110*f7184619SJoshua M. Clulow dhp->dh_arch_private = NULL;
111*f7184619SJoshua M. Clulow }
112*f7184619SJoshua M. Clulow
113*f7184619SJoshua M. Clulow static int
dis_sparc_handle_attach(dis_handle_t * dhp)114*f7184619SJoshua M. Clulow dis_sparc_handle_attach(dis_handle_t *dhp)
115*f7184619SJoshua M. Clulow {
116*f7184619SJoshua M. Clulow dis_handle_sparc_t *dhx;
117*f7184619SJoshua M. Clulow
118*f7184619SJoshua M. Clulow #if !defined(DIS_STANDALONE)
119*f7184619SJoshua M. Clulow char *opt = NULL;
120*f7184619SJoshua M. Clulow char *opt2, *save, *end;
121*f7184619SJoshua M. Clulow #endif
122*f7184619SJoshua M. Clulow
123*f7184619SJoshua M. Clulow /* Validate architecture flags */
124*f7184619SJoshua M. Clulow if ((dhp->dh_flags & (DIS_SPARC_V8|DIS_SPARC_V9|DIS_SPARC_V9_SGI))
125*f7184619SJoshua M. Clulow == 0) {
126*f7184619SJoshua M. Clulow (void) dis_seterrno(E_DIS_INVALFLAG);
127*f7184619SJoshua M. Clulow return (-1);
128*f7184619SJoshua M. Clulow }
129*f7184619SJoshua M. Clulow
130*f7184619SJoshua M. Clulow if ((dhx = dis_zalloc(sizeof (dis_handle_sparc_t))) == NULL) {
131*f7184619SJoshua M. Clulow (void) dis_seterrno(E_DIS_NOMEM);
132*f7184619SJoshua M. Clulow return (NULL);
133*f7184619SJoshua M. Clulow }
134*f7184619SJoshua M. Clulow dhx->dhx_debug = DIS_DEBUG_COMPAT;
135*f7184619SJoshua M. Clulow dhp->dh_arch_private = dhx;
136*f7184619SJoshua M. Clulow
137*f7184619SJoshua M. Clulow #if !defined(DIS_STANDALONE)
138*f7184619SJoshua M. Clulow
139*f7184619SJoshua M. Clulow opt = getenv("_LIBDISASM_DEBUG");
140*f7184619SJoshua M. Clulow if (opt == NULL)
141*f7184619SJoshua M. Clulow return (0);
142*f7184619SJoshua M. Clulow
143*f7184619SJoshua M. Clulow opt2 = strdup(opt);
144*f7184619SJoshua M. Clulow if (opt2 == NULL) {
145*f7184619SJoshua M. Clulow dis_handle_destroy(dhp);
146*f7184619SJoshua M. Clulow dis_free(dhx, sizeof (dis_handle_sparc_t));
147*f7184619SJoshua M. Clulow (void) dis_seterrno(E_DIS_NOMEM);
148*f7184619SJoshua M. Clulow return (-1);
149*f7184619SJoshua M. Clulow }
150*f7184619SJoshua M. Clulow save = opt2;
151*f7184619SJoshua M. Clulow
152*f7184619SJoshua M. Clulow while (opt2 != NULL) {
153*f7184619SJoshua M. Clulow end = strchr(opt2, ',');
154*f7184619SJoshua M. Clulow
155*f7184619SJoshua M. Clulow if (end != 0)
156*f7184619SJoshua M. Clulow *end++ = '\0';
157*f7184619SJoshua M. Clulow
158*f7184619SJoshua M. Clulow if (strcasecmp("synth-all", opt2) == 0)
159*f7184619SJoshua M. Clulow dhx->dhx_debug |= DIS_DEBUG_SYN_ALL;
160*f7184619SJoshua M. Clulow
161*f7184619SJoshua M. Clulow if (strcasecmp("compat", opt2) == 0)
162*f7184619SJoshua M. Clulow dhx->dhx_debug |= DIS_DEBUG_COMPAT;
163*f7184619SJoshua M. Clulow
164*f7184619SJoshua M. Clulow if (strcasecmp("synth-none", opt2) == 0)
165*f7184619SJoshua M. Clulow dhx->dhx_debug &= ~(DIS_DEBUG_SYN_ALL|DIS_DEBUG_COMPAT);
166*f7184619SJoshua M. Clulow
167*f7184619SJoshua M. Clulow if (strcasecmp("binary", opt2) == 0)
168*f7184619SJoshua M. Clulow dhx->dhx_debug |= DIS_DEBUG_PRTBIN;
169*f7184619SJoshua M. Clulow
170*f7184619SJoshua M. Clulow if (strcasecmp("format", opt2) == 0)
171*f7184619SJoshua M. Clulow dhx->dhx_debug |= DIS_DEBUG_PRTFMT;
172*f7184619SJoshua M. Clulow
173*f7184619SJoshua M. Clulow if (strcasecmp("all", opt2) == 0)
174*f7184619SJoshua M. Clulow dhx->dhx_debug = DIS_DEBUG_ALL;
175*f7184619SJoshua M. Clulow
176*f7184619SJoshua M. Clulow if (strcasecmp("none", opt2) == 0)
177*f7184619SJoshua M. Clulow dhx->dhx_debug = DIS_DEBUG_NONE;
178*f7184619SJoshua M. Clulow
179*f7184619SJoshua M. Clulow opt2 = end;
180*f7184619SJoshua M. Clulow }
181*f7184619SJoshua M. Clulow free(save);
182*f7184619SJoshua M. Clulow #endif /* DIS_STANDALONE */
183*f7184619SJoshua M. Clulow return (0);
184*f7184619SJoshua M. Clulow }
185*f7184619SJoshua M. Clulow
186*f7184619SJoshua M. Clulow /* ARGSUSED */
187*f7184619SJoshua M. Clulow static int
dis_sparc_max_instrlen(dis_handle_t * dhp)188*f7184619SJoshua M. Clulow dis_sparc_max_instrlen(dis_handle_t *dhp)
189*f7184619SJoshua M. Clulow {
190*f7184619SJoshua M. Clulow return (4);
191*f7184619SJoshua M. Clulow }
192*f7184619SJoshua M. Clulow
193*f7184619SJoshua M. Clulow /* ARGSUSED */
194*f7184619SJoshua M. Clulow static int
dis_sparc_min_instrlen(dis_handle_t * dhp)195*f7184619SJoshua M. Clulow dis_sparc_min_instrlen(dis_handle_t *dhp)
196*f7184619SJoshua M. Clulow {
197*f7184619SJoshua M. Clulow return (4);
198*f7184619SJoshua M. Clulow }
199*f7184619SJoshua M. Clulow
200*f7184619SJoshua M. Clulow /*
201*f7184619SJoshua M. Clulow * The dis_i386.c comment for this says it returns the previous instruction,
202*f7184619SJoshua M. Clulow * however, I'm fairly sure it's actually returning the _address_ of the
203*f7184619SJoshua M. Clulow * nth previous instruction.
204*f7184619SJoshua M. Clulow */
205*f7184619SJoshua M. Clulow /* ARGSUSED */
206*f7184619SJoshua M. Clulow static uint64_t
dis_sparc_previnstr(dis_handle_t * dhp,uint64_t pc,int n)207*f7184619SJoshua M. Clulow dis_sparc_previnstr(dis_handle_t *dhp, uint64_t pc, int n)
208*f7184619SJoshua M. Clulow {
209*f7184619SJoshua M. Clulow if (n <= 0)
210*f7184619SJoshua M. Clulow return (pc);
211*f7184619SJoshua M. Clulow
212*f7184619SJoshua M. Clulow if (pc < n)
213*f7184619SJoshua M. Clulow return (pc);
214*f7184619SJoshua M. Clulow
215*f7184619SJoshua M. Clulow return (pc - n*4);
216*f7184619SJoshua M. Clulow }
217*f7184619SJoshua M. Clulow
218*f7184619SJoshua M. Clulow /* ARGSUSED */
219*f7184619SJoshua M. Clulow static int
dis_sparc_instrlen(dis_handle_t * dhp,uint64_t pc)220*f7184619SJoshua M. Clulow dis_sparc_instrlen(dis_handle_t *dhp, uint64_t pc)
221*f7184619SJoshua M. Clulow {
222*f7184619SJoshua M. Clulow return (4);
223*f7184619SJoshua M. Clulow }
224*f7184619SJoshua M. Clulow
225*f7184619SJoshua M. Clulow static int
dis_sparc_disassemble(dis_handle_t * dhp,uint64_t addr,char * buf,size_t buflen)226*f7184619SJoshua M. Clulow dis_sparc_disassemble(dis_handle_t *dhp, uint64_t addr, char *buf,
227*f7184619SJoshua M. Clulow size_t buflen)
228*f7184619SJoshua M. Clulow {
229*f7184619SJoshua M. Clulow dis_handle_sparc_t *dhx = dhp->dh_arch_private;
230*f7184619SJoshua M. Clulow const table_t *tp = &initial_table;
231*f7184619SJoshua M. Clulow const inst_t *inp = NULL;
232*f7184619SJoshua M. Clulow
233*f7184619SJoshua M. Clulow uint32_t instr;
234*f7184619SJoshua M. Clulow uint32_t idx = 0;
235*f7184619SJoshua M. Clulow
236*f7184619SJoshua M. Clulow if (dhp->dh_read(dhp->dh_data, addr, &instr, sizeof (instr)) !=
237*f7184619SJoshua M. Clulow sizeof (instr))
238*f7184619SJoshua M. Clulow return (-1);
239*f7184619SJoshua M. Clulow
240*f7184619SJoshua M. Clulow dhx->dhx_buf = buf;
241*f7184619SJoshua M. Clulow dhx->dhx_buflen = buflen;
242*f7184619SJoshua M. Clulow dhp->dh_addr = addr;
243*f7184619SJoshua M. Clulow
244*f7184619SJoshua M. Clulow buf[0] = '\0';
245*f7184619SJoshua M. Clulow
246*f7184619SJoshua M. Clulow /* this allows sparc code to be tested on x86 */
247*f7184619SJoshua M. Clulow #if !defined(DIS_STANDALONE)
248*f7184619SJoshua M. Clulow instr = BE_32(instr);
249*f7184619SJoshua M. Clulow #endif /* DIS_STANDALONE */
250*f7184619SJoshua M. Clulow
251*f7184619SJoshua M. Clulow #if !defined(DIS_STANDALONE)
252*f7184619SJoshua M. Clulow if ((dhx->dhx_debug & DIS_DEBUG_PRTBIN) != 0)
253*f7184619SJoshua M. Clulow do_binary(instr);
254*f7184619SJoshua M. Clulow #endif /* DIS_STANDALONE */
255*f7184619SJoshua M. Clulow
256*f7184619SJoshua M. Clulow /* CONSTCOND */
257*f7184619SJoshua M. Clulow while (1) {
258*f7184619SJoshua M. Clulow idx = dis_get_bits(instr, tp->tbl_field, tp->tbl_len);
259*f7184619SJoshua M. Clulow inp = &tp->tbl_inp[idx];
260*f7184619SJoshua M. Clulow
261*f7184619SJoshua M. Clulow inp = dis_get_overlay(dhp, tp, idx);
262*f7184619SJoshua M. Clulow
263*f7184619SJoshua M. Clulow if ((inp->in_type == INST_NONE) ||
264*f7184619SJoshua M. Clulow ((inp->in_arch & dhp->dh_flags) == 0))
265*f7184619SJoshua M. Clulow goto error;
266*f7184619SJoshua M. Clulow
267*f7184619SJoshua M. Clulow if (inp->in_type == INST_TBL) {
268*f7184619SJoshua M. Clulow tp = inp->in_data.in_tbl;
269*f7184619SJoshua M. Clulow continue;
270*f7184619SJoshua M. Clulow }
271*f7184619SJoshua M. Clulow
272*f7184619SJoshua M. Clulow break;
273*f7184619SJoshua M. Clulow }
274*f7184619SJoshua M. Clulow
275*f7184619SJoshua M. Clulow if (tp->tbl_fmt(dhp, instr, inp, idx) == 0)
276*f7184619SJoshua M. Clulow return (0);
277*f7184619SJoshua M. Clulow
278*f7184619SJoshua M. Clulow error:
279*f7184619SJoshua M. Clulow
280*f7184619SJoshua M. Clulow (void) dis_snprintf(buf, buflen,
281*f7184619SJoshua M. Clulow ((dhp->dh_flags & DIS_OCTAL) != 0) ? "0%011lo" : "0x%08lx",
282*f7184619SJoshua M. Clulow instr);
283*f7184619SJoshua M. Clulow
284*f7184619SJoshua M. Clulow return (0);
285*f7184619SJoshua M. Clulow }
286*f7184619SJoshua M. Clulow
287*f7184619SJoshua M. Clulow static uint32_t
dis_get_bits(uint32_t instr,int offset,int length)288*f7184619SJoshua M. Clulow dis_get_bits(uint32_t instr, int offset, int length)
289*f7184619SJoshua M. Clulow {
290*f7184619SJoshua M. Clulow uint32_t mask, val;
291*f7184619SJoshua M. Clulow int i;
292*f7184619SJoshua M. Clulow
293*f7184619SJoshua M. Clulow for (i = 0, mask = 0; i < length; ++i)
294*f7184619SJoshua M. Clulow mask |= (1UL << i);
295*f7184619SJoshua M. Clulow
296*f7184619SJoshua M. Clulow mask = mask << (offset - length + 1);
297*f7184619SJoshua M. Clulow
298*f7184619SJoshua M. Clulow val = instr & mask;
299*f7184619SJoshua M. Clulow
300*f7184619SJoshua M. Clulow val = val >> (offset - length + 1);
301*f7184619SJoshua M. Clulow
302*f7184619SJoshua M. Clulow return (val);
303*f7184619SJoshua M. Clulow }
304*f7184619SJoshua M. Clulow
305*f7184619SJoshua M. Clulow static const inst_t *
dis_get_overlay(dis_handle_t * dhp,const table_t * tp,uint32_t idx)306*f7184619SJoshua M. Clulow dis_get_overlay(dis_handle_t *dhp, const table_t *tp, uint32_t idx)
307*f7184619SJoshua M. Clulow {
308*f7184619SJoshua M. Clulow const inst_t *ip = &tp->tbl_inp[idx];
309*f7184619SJoshua M. Clulow int i;
310*f7184619SJoshua M. Clulow
311*f7184619SJoshua M. Clulow if (tp->tbl_ovp == NULL)
312*f7184619SJoshua M. Clulow return (ip);
313*f7184619SJoshua M. Clulow
314*f7184619SJoshua M. Clulow for (i = 0; tp->tbl_ovp[i].ov_idx != -1; ++i) {
315*f7184619SJoshua M. Clulow if (tp->tbl_ovp[i].ov_idx != idx)
316*f7184619SJoshua M. Clulow continue;
317*f7184619SJoshua M. Clulow
318*f7184619SJoshua M. Clulow if ((tp->tbl_ovp[i].ov_inst.in_arch & dhp->dh_flags) == 0)
319*f7184619SJoshua M. Clulow continue;
320*f7184619SJoshua M. Clulow
321*f7184619SJoshua M. Clulow ip = &tp->tbl_ovp[i].ov_inst;
322*f7184619SJoshua M. Clulow break;
323*f7184619SJoshua M. Clulow }
324*f7184619SJoshua M. Clulow
325*f7184619SJoshua M. Clulow return (ip);
326*f7184619SJoshua M. Clulow }
327*f7184619SJoshua M. Clulow
328*f7184619SJoshua M. Clulow #if !defined(DIS_STANDALONE)
329*f7184619SJoshua M. Clulow static void
do_binary(uint32_t instr)330*f7184619SJoshua M. Clulow do_binary(uint32_t instr)
331*f7184619SJoshua M. Clulow {
332*f7184619SJoshua M. Clulow (void) fprintf(stderr, "DISASM: ");
333*f7184619SJoshua M. Clulow prt_binary(instr, 32);
334*f7184619SJoshua M. Clulow (void) fprintf(stderr, "\n");
335*f7184619SJoshua M. Clulow }
336*f7184619SJoshua M. Clulow #endif /* DIS_STANDALONE */
337*f7184619SJoshua M. Clulow
338*f7184619SJoshua M. Clulow static int
dis_sparc_supports_flags(int flags)339*f7184619SJoshua M. Clulow dis_sparc_supports_flags(int flags)
340*f7184619SJoshua M. Clulow {
341*f7184619SJoshua M. Clulow int archflags = flags & DIS_ARCH_MASK;
342*f7184619SJoshua M. Clulow
343*f7184619SJoshua M. Clulow if (archflags == DIS_SPARC_V8 ||
344*f7184619SJoshua M. Clulow (archflags & (DIS_SPARC_V9 | DIS_SPARC_V8)) == DIS_SPARC_V9)
345*f7184619SJoshua M. Clulow return (1);
346*f7184619SJoshua M. Clulow
347*f7184619SJoshua M. Clulow return (0);
348*f7184619SJoshua M. Clulow }
349*f7184619SJoshua M. Clulow
350*f7184619SJoshua M. Clulow const dis_arch_t dis_arch_sparc = {
351*f7184619SJoshua M. Clulow dis_sparc_supports_flags,
352*f7184619SJoshua M. Clulow dis_sparc_handle_attach,
353*f7184619SJoshua M. Clulow dis_sparc_handle_detach,
354*f7184619SJoshua M. Clulow dis_sparc_disassemble,
355*f7184619SJoshua M. Clulow dis_sparc_previnstr,
356*f7184619SJoshua M. Clulow dis_sparc_min_instrlen,
357*f7184619SJoshua M. Clulow dis_sparc_max_instrlen,
358*f7184619SJoshua M. Clulow dis_sparc_instrlen
359*f7184619SJoshua M. Clulow };
360